Your search keyword '"Karine Roy"' showing total 2 results

1. A Novel Wearable Device for Continuous Ambulatory ECG Recording: Proof of Concept and Assessment of Signal Quality

Author

Christian Steinberg, François Philippon, Marina Sanchez, Pascal Fortier-Poisson, Gilles O’Hara, Franck Molin, Jean-François Sarrazin, Isabelle Nault, Louis Blier, Karine Roy, Benoit Plourde, and Jean Champagne

Subjects

Noninvasive ambulatory rhythm monitoring, Holter, ECG monitoring, telehealth, wearable ECG sensors, Biotechnology, TP248.13-248.65

Abstract

Diagnosis of arrhythmic disorders is challenging because of their short-lasting, intermittent character. Conventional technologies of noninvasive ambulatory rhythm monitoring are limited by modest sensitivity. We present a novel form of wearable electrocardiogram (ECG) sensors providing an alternative tool for long-term rhythm monitoring with the potential of increased sensitivity to detect intermittent or subclinical arrhythmia. The objective was to assess the signal quality and R-R coverage of a wearable ECG sensor system compared to a standard 3-lead Holter. In this phase-1 trial, healthy individuals underwent 24-h simultaneous rhythm monitoring using the OMsignal system together with a 3-lead Holter recording. The OMsignal system consists of a garment (bra or shirt) with integrated sensors recording a single-lead ECG and an acquisition module for data storage and processing. Head-to-head signal quality was assessed regarding adequate P-QRS-T distinction and was performed by three electrophysiologists blinded to the recording technology. The accuracy of signal coverage was assessed using Bland-Altman analysis. Fifteen individuals underwent simultaneous 24-h recording. Signal quality and accuracy of the OMgaments was equivalent to Holter-monitoring (84% vs 93% electrophysiologists rating, p = 0.06). Signal coverage of R-R intervals showed a very close overlay between the OMsignal system and Holter signals, mean difference in heart rate of 2 5 bpm. The noise level of OMgarments was comparable to Holter recording. OMgarments provide high signal quality for adequate rhythm analysis, representing a promising novel technology for long-term non-invasive ECG monitoring.

Published

2019

2. A Novel Wearable Device for Continuous Ambulatory ECG Recording: Proof of Concept and Assessment of Signal Quality

Author

Louis Blier, Franck Molin, Gilles O'Hara, Jean-François Sarrazin, François Philippon, Karine Roy, Marina Sanchez, Pascal Fortier-Poisson, Benoit Plourde, Christian Steinberg, Isabelle Nault, and Jean Champagne

Subjects

Adult, Male, 020205 medical informatics, Computer science, telehealth, lcsh:Biotechnology, Continuous Ambulatory ECG, Clinical Biochemistry, Wearable computer, 02 engineering and technology, 030204 cardiovascular system & hematology, ECG monitoring, Signal, Article, Wearable Electronic Devices, 03 medical and health sciences, 0302 clinical medicine, Signal quality, Heart Rate, lcsh:TP248.13-248.65, 0202 electrical engineering, electronic engineering, information engineering, Humans, Computer vision, cardiovascular diseases, business.industry, Holter, Arrhythmias, Cardiac, Signal Processing, Computer-Assisted, General Medicine, Middle Aged, Telemedicine, Ecg monitoring, Proof of concept, Ambulatory, Electrocardiography, Ambulatory, Noninvasive ambulatory rhythm monitoring, Female, wearable ECG sensors, Artificial intelligence, business, Sensitivity (electronics)

Abstract

Diagnosis of arrhythmic disorders is challenging because of their short-lasting, intermittent character. Conventional technologies of noninvasive ambulatory rhythm monitoring are limited by modest sensitivity. We present a novel form of wearable electrocardiogram (ECG) sensors providing an alternative tool for long-term rhythm monitoring with the potential of increased sensitivity to detect intermittent or subclinical arrhythmia. The objective was to assess the signal quality and R-R coverage of a wearable ECG sensor system compared to a standard 3-lead Holter. In this phase-1 trial, healthy individuals underwent 24-h simultaneous rhythm monitoring using the OMsignal system together with a 3-lead Holter recording. The OMsignal system consists of a garment (bra or shirt) with integrated sensors recording a single-lead ECG and an acquisition module for data storage and processing. Head-to-head signal quality was assessed regarding adequate P-QRS-T distinction and was performed by three electrophysiologists blinded to the recording technology. The accuracy of signal coverage was assessed using Bland-Altman analysis. Fifteen individuals underwent simultaneous 24-h recording. Signal quality and accuracy of the OMgaments was equivalent to Holter-monitoring (84% vs 93% electrophysiologists rating, p = 0.06). Signal coverage of R-R intervals showed a very close overlay between the OMsignal system and Holter signals, mean difference in heart rate of 2 5 bpm. The noise level of OMgarments was comparable to Holter recording. OMgarments provide high signal quality for adequate rhythm analysis, representing a promising novel technology for long-term non-invasive ECG monitoring.

Published

2019